#!/usr/bin/python import RPi.GPIO as GPIO from Adafruit_PWM_Servo_Driver import PWM import time # class Adafruit_StepperMotor: # MICROSTEPS = 8 # MICROSTEP_CURVE = [0, 50, 98, 142, 180, 212, 236, 250, 255] # # #MICROSTEPS = 16 # # a sinusoidal curve NOT LINEAR! # #MICROSTEP_CURVE = [0, 25, 50, 74, 98, 120, 141, 162, 180, 197, 212, 225, 236, 244, 250, 253, 255] # # def __init__(self, controller, num, steps=200): # self.MC = controller # self.revsteps = steps # self.motornum = num # self.sec_per_step = 0.1 # self.steppingcounter = 0 # self.currentstep = 0 # # num -= 1 # # if (num == 0): # self.PWMA = 8 # self.AIN2 = 9 # self.AIN1 = 10 # self.PWMB = 13 # self.BIN2 = 12 # self.BIN1 = 11 # elif (num == 1): # self.PWMA = 2 # self.AIN2 = 3 # self.AIN1 = 4 # self.PWMB = 7 # self.BIN2 = 6 # self.BIN1 = 5 # else: # raise NameError('MotorHAT Stepper must be between 1 and 2 inclusive') # # def setSpeed(self, rpm): # self.sec_per_step = 60.0 / (self.revsteps * rpm) # self.steppingcounter = 0 # # def oneStep(self, dir, style): # pwm_a = pwm_b = 255 # # # first determine what sort of stepping procedure we're up to # if (style == Adafruit_MotorHAT.SINGLE): # if ((self.currentstep/(self.MICROSTEPS/2)) % 2): # # we're at an odd step, weird # if (dir == Adafruit_MotorHAT.FORWARD): # self.currentstep += self.MICROSTEPS/2 # else: # self.currentstep -= self.MICROSTEPS/2 # else: # # go to next even step # if (dir == Adafruit_MotorHAT.FORWARD): # self.currentstep += self.MICROSTEPS # else: # self.currentstep -= self.MICROSTEPS # if (style == Adafruit_MotorHAT.DOUBLE): # if not (self.currentstep/(self.MICROSTEPS/2) % 2): # # we're at an even step, weird # if (dir == Adafruit_MotorHAT.FORWARD): # self.currentstep += self.MICROSTEPS/2 # else: # self.currentstep -= self.MICROSTEPS/2 # else: # # go to next odd step # if (dir == Adafruit_MotorHAT.FORWARD): # self.currentstep += self.MICROSTEPS # else: # self.currentstep -= self.MICROSTEPS # if (style == Adafruit_MotorHAT.INTERLEAVE): # if (dir == Adafruit_MotorHAT.FORWARD): # self.currentstep += self.MICROSTEPS/2 # else: # self.currentstep -= self.MICROSTEPS/2 # # if (style == Adafruit_MotorHAT.MICROSTEP): # if (dir == Adafruit_MotorHAT.FORWARD): # self.currentstep += 1 # else: # self.currentstep -= 1 # # # go to next 'step' and wrap around # self.currentstep += self.MICROSTEPS * 4 # self.currentstep %= self.MICROSTEPS * 4 # # pwm_a = pwm_b = 0 # if (self.currentstep >= 0) and (self.currentstep < self.MICROSTEPS): # pwm_a = self.MICROSTEP_CURVE[self.MICROSTEPS - self.currentstep] # pwm_b = self.MICROSTEP_CURVE[self.currentstep] # elif (self.currentstep >= self.MICROSTEPS) and (self.currentstep < self.MICROSTEPS*2): # pwm_a = self.MICROSTEP_CURVE[self.currentstep - self.MICROSTEPS] # pwm_b = self.MICROSTEP_CURVE[self.MICROSTEPS*2 - self.currentstep] # elif (self.currentstep >= self.MICROSTEPS*2) and (self.currentstep < self.MICROSTEPS*3): # pwm_a = self.MICROSTEP_CURVE[self.MICROSTEPS*3 - self.currentstep] # pwm_b = self.MICROSTEP_CURVE[self.currentstep - self.MICROSTEPS*2] # elif (self.currentstep >= self.MICROSTEPS*3) and (self.currentstep < self.MICROSTEPS*4): # pwm_a = self.MICROSTEP_CURVE[self.currentstep - self.MICROSTEPS*3] # pwm_b = self.MICROSTEP_CURVE[self.MICROSTEPS*4 - self.currentstep] # # # # go to next 'step' and wrap around # self.currentstep += self.MICROSTEPS * 4 # self.currentstep %= self.MICROSTEPS * 4 # # # only really used for microstepping, otherwise always on! # self.MC._pwm.setPWM(self.PWMA, 0, pwm_a*16) # self.MC._pwm.setPWM(self.PWMB, 0, pwm_b*16) # # # set up coil energizing! # coils = [0, 0, 0, 0] # # if (style == Adafruit_MotorHAT.MICROSTEP): # if (self.currentstep >= 0) and (self.currentstep < self.MICROSTEPS): # coils = [1, 1, 0, 0] # elif (self.currentstep >= self.MICROSTEPS) and (self.currentstep < self.MICROSTEPS*2): # coils = [0, 1, 1, 0] # elif (self.currentstep >= self.MICROSTEPS*2) and (self.currentstep < self.MICROSTEPS*3): # coils = [0, 0, 1, 1] # elif (self.currentstep >= self.MICROSTEPS*3) and (self.currentstep < self.MICROSTEPS*4): # coils = [1, 0, 0, 1] # else: # step2coils = [ [1, 0, 0, 0], # [1, 1, 0, 0], # [0, 1, 0, 0], # [0, 1, 1, 0], # [0, 0, 1, 0], # [0, 0, 1, 1], # [0, 0, 0, 1], # [1, 0, 0, 1] ] # coils = step2coils[self.currentstep/(self.MICROSTEPS/2)] # # #print "coils state = " + str(coils) # self.MC.setPin(self.AIN2, coils[0]) # self.MC.setPin(self.BIN1, coils[1]) # self.MC.setPin(self.AIN1, coils[2]) # self.MC.setPin(self.BIN2, coils[3]) # # return self.currentstep # # def step(self, steps, direction, stepstyle): # s_per_s = self.sec_per_step # lateststep = 0 # # if (stepstyle == Adafruit_MotorHAT.INTERLEAVE): # s_per_s = s_per_s / 2.0 # if (stepstyle == Adafruit_MotorHAT.MICROSTEP): # s_per_s /= self.MICROSTEPS # steps *= self.MICROSTEPS # # print s_per_s, " sec per step" # # for s in range(steps): # lateststep = self.oneStep(direction, stepstyle) # time.sleep(s_per_s) # # if (stepstyle == Adafruit_MotorHAT.MICROSTEP): # # this is an edge case, if we are in between full steps, lets just keep going # # so we end on a full step # while (lateststep != 0) and (lateststep != self.MICROSTEPS): # lateststep = self.oneStep(dir, stepstyle) # time.sleep(s_per_s) class dw_DCMotor: def __init__(self, controller, num): self.speed = 0 self.MC = controller self.motornum = num modepin = in1 = in2 = 0 if (num == 0): in2 = 2 #phase in1 = 3 #enable elif (num == 1): in2 = 4 #phase in1 = 5 #enable elif (num == 2): in2 = 15 #phase in1 = 14 #enable elif (num == 3): in2 = 13 #phase in1 = 12 #enable elif (num == 4): in2 = 8 #phase in1 = 9 #enable elif (num == 5): in2 = 10 #phase in1 = 11 #enable else: raise NameError('MotorHAT Motor must be between 1 and 6 inclusive') self.PHpin = in2 self.ENpin = in1 # switch off self.run(dw_MotorCONTROL.RELEASE, 0) def setMotorSpeed(self, value): if(value > 0) and (value <= 255): self.run(dw_MotorCONTROL.FORWARD, value) if(value == 0): self.run(dw_MotorCONTROL.RELEASE, value) if(value < 0) and (value >= -255): self.run(dw_MotorCONTROL.BACKWARD, abs(value)) def run(self, command, speed = 0): if not self.MC: return if (command == dw_MotorCONTROL.FORWARD): self.MC.setPin(self.PHpin, 0) self.MC._pwm.setPWM(self.ENpin, 0, speed*16) if (command == dw_MotorCONTROL.BACKWARD): self.MC.setPin(self.PHpin, 1) self.MC._pwm.setPWM(self.ENpin, 0, speed*16) if (command == dw_MotorCONTROL.RELEASE): self.MC.setPin(self.PHpin, 0) self.MC.setPin(self.ENpin, 0) def setSpeed(self, speed): if (speed < 0): speed = 0 if (speed > 255): speed = 255 self.MC._pwm.setPWM(self.ENpin, 0, speed*16) class dw_MotorCONTROL: FORWARD = 1 BACKWARD = 2 BRAKE = 3 RELEASE = 4 SINGLE = 1 DOUBLE = 2 INTERLEAVE = 3 MICROSTEP = 4 ININ = 0 PHASE = 1 def __init__(self, addr = 0x60, freq = 1600): self._i2caddr = addr # default addr on HAT self._frequency = freq # default @1600Hz PWM freq # self.steppers = [ Adafruit_StepperMotor(self, 1), Adafruit_StepperMotor(self, 2) ] self._pwm = PWM(addr, debug=False) self._pwm.setPWMFreq(self._frequency) # Just gonna default to high for now GPIO.setmode(GPIO.BCM) GPIO.setwarnings(False) GPIO.setup(17, GPIO.OUT) GPIO.output(17, GPIO.HIGH) self.motors = [ dw_DCMotor(self, m) for m in range(6) ] def setPin(self, pin, value): if (pin < 0) or (pin > 15): raise NameError('PWM pin must be between 0 and 15 inclusive') if (value != 0) and (value != 1): raise NameError('Pin value must be 0 or 1!') if (value == 0): self._pwm.setPWM(pin, 0, 4096) if (value == 1): self._pwm.setPWM(pin, 4096, 0) def getMotor(self, num): if (num < 1) or (num > 6): raise NameError('MotorHAT Motor must be between 1 and 6 inclusive') return self.motors[num-1] def allOff(self): for y in range(5): self.motors[y].run(dw_MotorCONTROL.RELEASE, 0)